Six CO2 molecules are necessary for the process of photosynthesis to produce one glucose molecule (C6H12O6). During the Calvin cycle, which occurs in the chloroplasts of plant cells, these six carbon atoms from carbon dioxide are fixed and combined with ribulose bisphosphate (RuBP) to ultimately form glucose. This process is essential for plants to convert light energy into chemical energy, supporting their growth and providing energy for other organisms in the ecosystem. Additionally, glucose serves as a fundamental building block for various organic compounds.
It is not necessary.But you need 6 CO2 moles for make 1 glucose mole.
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The second stage of photosynthesis, which takes place in the stroma of the chloroplast, can occur without the presence of sunlight. In this stage, known as the Calvin Cycle, carbon molecules from CO2 are fixed into glucose (C6H12O2). The reactions of the Calvin Cycle is as follows: 1. A five-carbon sugar molecule called ribulose bisphosphate, or RuBP, is the acceptor that binds CO2 dissolved in the stroma. This process, called CO2 fixation, is catalyzed by the enzyme RuBP carboxylase, forming an unstable six-carbon molecule. This molecule quickly breaks down to give two molecules of the three-carbon 3-phosphoglycerate (3PG), also called phosphoglyceric acid (PGA). 2. The two 3PG molecules are converted into glyceraldehyde 3-phosphate (G3P, a.k.a. phosphoglyceraldehyde, PGAL) molecules, a three-carbon sugar phosphate, by adding a high-energy phosphate group from ATP, then breaking the phosphate bond and adding hydrogen from NADPH + H+. Three turns of the cycle, using three molecules of CO2, produces six molecules of G3P. However, only one of the six molecules exits the cycle as an output, while the remaining five enter a complex process that regenerates more RuBP to continue the cycle. Two molecules of G3P, produced by a total of six turns of the cycle, combine to form one molecule of glucose.
6 cycles are required if you consider or start from 1 CO2 , but 2 cycles if you start from 3 CO2 .
To produce one glucose molecule (C6H12O6) through photosynthesis, six carbon dioxide (CO2) molecules are needed. This process occurs in plants, where CO2 is combined with water (H2O) in the presence of sunlight to synthesize glucose and oxygen (O2). Thus, the overall equation for photosynthesis can be summarized as 6 CO2 + 6 H2O → C6H12O6 + 6 O2.
It is not necessary.But you need 6 CO2 moles for make 1 glucose mole.
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The six parts of the plant cell are, the cell wall the cell membrane the vacuole the nucleus the chloroplast and the cytoplasm
Six CO2 molecules will be produced for every glucose molecule completely oxidized. Glucose contains six Carbon atoms, hence the six CO2 molecules.
It's not necessary
For every six molecules of carbon dioxide (CO2) taken in during the process of photosynthesis, one molecule of glucose (C6H12O6) is produced. This means that six molecules of CO2 are required to produce one molecule of glucose.
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6 CO2 + 6 H2O →C6H12O6 + 6 O2Carbon dioxide + Water + Light energy → Glucose + Oxygen6 molecules of CO2
One mole of glucose requires six moles of CO2 to enter the Calvin cycle for its synthesis.
Degree.
The second stage of photosynthesis, which takes place in the stroma of the chloroplast, can occur without the presence of sunlight. In this stage, known as the Calvin Cycle, carbon molecules from CO2 are fixed into glucose (C6H12O2). The reactions of the Calvin Cycle is as follows: 1. A five-carbon sugar molecule called ribulose bisphosphate, or RuBP, is the acceptor that binds CO2 dissolved in the stroma. This process, called CO2 fixation, is catalyzed by the enzyme RuBP carboxylase, forming an unstable six-carbon molecule. This molecule quickly breaks down to give two molecules of the three-carbon 3-phosphoglycerate (3PG), also called phosphoglyceric acid (PGA). 2. The two 3PG molecules are converted into glyceraldehyde 3-phosphate (G3P, a.k.a. phosphoglyceraldehyde, PGAL) molecules, a three-carbon sugar phosphate, by adding a high-energy phosphate group from ATP, then breaking the phosphate bond and adding hydrogen from NADPH + H+. Three turns of the cycle, using three molecules of CO2, produces six molecules of G3P. However, only one of the six molecules exits the cycle as an output, while the remaining five enter a complex process that regenerates more RuBP to continue the cycle. Two molecules of G3P, produced by a total of six turns of the cycle, combine to form one molecule of glucose.
no. of atoms = no. of moles * avogadros no. no. of atoms = 6 * 6*1023 no. of atoms = 3.6*1024 (ans)